Java高并发专题之36、线程6种状态详解
线程的状态有哪几种?他们之间是如何转换的?
目录
1、线程状态分类
线程一共有六种状态,分别为New、RUNNABLE、BLOCKED、WAITING、TIMED_WAITING、TERMINATED,同一时刻只有一种状态,通过线程的getState方法可以获取线程的状态。
2、状态详解
Thread的状态使用java.lang.Thread.State枚举表示。
2.1、状态1:NEW
当线程被创建出来还没有被调用start()时候的状态。
public class NewState {
public static void main(String[] args) {
Thread thread1 = new Thread("thread1");
System.out.println(thread1.getState());
}
}
输出
NEW
2.2、状态2:RUNNABLE
当线程被调用了start(),且处于等待操作系统分配资源(如CPU)、等待IO连接、正在运行状态,即表示Running状态和Ready状态。
注:不一定被调用了start()立刻会改变状态,还有一些准备工作,这个时候的状态是不确定的。
public class RunnableState {
public static void main(String[] args) {
Thread thread1 = new Thread("thread1");
thread1.start();
System.out.println(thread1.getState());
}
}
输出
RUNNABLE
2.3、状态3:BLOCKED
等待监视器锁而被阻塞的线程的线程状态,当进入synchronized块/方法或者在调用wait()被唤醒/超时之后重新进入synchronized块/方法,但是锁被其它线程占有,这个时候被操作系统挂起,状态为阻塞状态。
阻塞状态的线程,即使调用interrupt()方法也不会改变其状态。
下面看案例代码,thread1持有lock对象的锁一直没有释放,而thread2也想获取lock对象的锁,但是锁一直被thread1持有者,导致thread2被阻塞在@1处,此时thread2的状态就是BLOCKED状态。
import java.util.concurrent.TimeUnit;
public class BlockedState {
static String lock = "锁";
public static void main(String[] args) throws InterruptedException {
Thread thread1 = new Thread("thread1") {
@Override
public void run() {
synchronized (lock) {
//死循环导致thread1一直持有lock对象锁
while (true) ;
}
}
};
thread1.start();
//休眠1秒,让thread1先启动
TimeUnit.SECONDS.sleep(1);
Thread thread2 = new Thread("thread2") {
@Override
public void run() {
synchronized (lock) { //@1
System.out.println("thread2");
}
}
};
thread2.start();
System.out.println("thread1.state:" + thread1.getState());
System.out.println("thread2.state:" + thread2.getState());
}
}
运行结果
thread1.state:RUNNABLE
thread2.state:BLOCKED
2个线程的堆栈信息,线程堆栈信息中包含了线程的详细信息,如:线程状态、线程目前执行到哪段代码了
"thread2" #13 prio=5 os_prio=0 tid=0x00000000281ec000 nid=0x878 waiting for monitor entry [0x0000000028dff000]
java.lang.Thread.State: BLOCKED (on object monitor)
at BlockedState$2.run(BlockedState.java:25)
- waiting to lock <0x00000007176b2a20> (a java.lang.String)
Locked ownable synchronizers:
- None
"thread1" #12 prio=5 os_prio=0 tid=0x00000000281ea800 nid=0x5e50 runnable [0x0000000028cff000]
java.lang.Thread.State: RUNNABLE
at BlockedState$1.run(BlockedState.java:12)
- locked <0x00000007176b2a20> (a java.lang.String)
Locked ownable synchronizers:
- None
2.4、状态4:WAITING
无条件等待,当线程调用wait()/join()/LockSupport.park()不加超时时间的方法之后所处的状态,如果没有被唤醒或等待的线程没有结束,那么将一直等待,当前状态的线程不会被分配CPU资源和持有锁.
简单理解:就是无限期等待。
导致线程处于WAITING有3中方式。
方式1:wait()
import java.util.concurrent.TimeUnit;
public class WaitingState1 {
public static void main(String[] args) throws InterruptedException {
Thread thread1 = new Thread("thread1") {
@Override
public void run() {
synchronized (WaitingState1.class) {
try {
//调用wait方法,让线程等待
WaitingState1.class.wait();
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
};
thread1.start();
//模拟休眠1秒,让thread1运行到wait方法处
TimeUnit.SECONDS.sleep(1);
System.out.println("thread.state:" + thread1.getState());
}
}
输出
thread1.state:WAITING
线程thread1堆栈信息
"thread1" #12 prio=5 os_prio=0 tid=0x0000000027a5d800 nid=0x1b48 in Object.wait() [0x0000000028dbe000]
java.lang.Thread.State: WAITING (on object monitor)
at java.lang.Object.wait(Native Method)
- waiting on <0x00000007176adc68> (a java.lang.Class for WaitingState1)
at java.lang.Object.wait(Object.java:502)
at WaitingState1$1.run(WaitingState1.java:11)
- locked <0x00000007176adc68> (a java.lang.Class for WaitingState1)
Locked ownable synchronizers:
- None
方式2:join()
public class WaitingState2 {
public static void main(String[] args) throws InterruptedException {
Thread thread1 = new Thread("thread1") {
@Override
public void run() {
while (true) ;
}
};
thread1.start();
//join方法会让当前主线程等待thread1结束
thread1.join();
}
}
上面代码会导致主线程处于WAITING状态,下面是主线程堆栈信息,第2行显示主线程处于WAITING状态
"main" #1 prio=5 os_prio=0 tid=0x00000000035a4000 nid=0x3fbc in Object.wait() [0x000000000305f000]
java.lang.Thread.State: WAITING (on object monitor)
at java.lang.Object.wait(Native Method)
- waiting on <0x00000007176b0708> (a WaitingState2$1)
at java.lang.Thread.join(Thread.java:1249)
- locked <0x00000007176b0708> (a WaitingState2$1)
at java.lang.Thread.join(Thread.java:1323)
at WaitingState2.main(WaitingState2.java:14)
Locked ownable synchronizers:
- None
方式3:LockSupport.park()
import java.util.concurrent.TimeUnit;
import java.util.concurrent.locks.LockSupport;
public class WaitingState3 {
public static void main(String[] args) throws InterruptedException {
Thread thread1 = new Thread("thread1") {
@Override
public void run() {
LockSupport.park();
}
};
thread1.start();
//模拟休眠1秒,让thread1运行到park方法处
TimeUnit.SECONDS.sleep(1);
System.out.println("thread1.state:" + thread1.getState());
}
}
输出
thread1.state:WAITING
线程thread1堆栈信息
"thread1" #12 prio=5 os_prio=0 tid=0x00000000287cc000 nid=0x3880 waiting on condition [0x000000002918f000]
java.lang.Thread.State: WAITING (parking)
at sun.misc.Unsafe.park(Native Method)
at java.util.concurrent.locks.LockSupport.park(LockSupport.java:304)
at WaitingState3$1.run(WaitingState3.java:9)
Locked ownable synchronizers:
- None
2.5、状态5:TIMED_WAITING
有条件的等待,当线程调用sleep(睡眠时间)/wait(等待时间)/join(等待时间)/ LockSupport.parkNanos(等待时间)/LockSupport.parkUntil(等待时间)方法之后所处的状态,在指定的时间没有被唤醒或者等待线程没有结束,会被系统自动唤醒,正常退出。
简单点理解:有限期等待。
导致线程处于WAITING有5中方式。
方式1:sleep(睡眠时间)
import java.util.concurrent.TimeUnit;
public class TimedWaitingState1 {
public static void main(String[] args) throws InterruptedException {
Thread thread1 = new Thread("thread1") {
@Override
public void run() {
//休眠500秒 = 500000毫秒
try {
Thread.sleep(500 * 1000);
} catch (InterruptedException e) {
e.printStackTrace();
}
}
};
thread1.start();
//模拟休眠1秒,让thread1运行到sleep方法处
TimeUnit.SECONDS.sleep(1);
System.out.println("thread1.state:" + thread1.getState());
}
}
输出
thread1.state:TIMED_WAITING
线程thread1堆栈信息,堆栈信息中可以看出是线程sleep方法导致线程等待的
"thread1" #12 prio=5 os_prio=0 tid=0x0000000027e1c000 nid=0x5c68 waiting on condition [0x000000002917f000]
java.lang.Thread.State: TIMED_WAITING (sleeping)
at java.lang.Thread.sleep(Native Method)
at TimedWaitingState1$1.run(TimedWaitingState1.java:10)
Locked ownable synchronizers:
- None
方式2:wait(等待时间)
import java.util.concurrent.TimeUnit;
public class TimedWaitingState2 {
public static void main(String[] args) throws InterruptedException {
Thread thread1 = new Thread("thread1") {
@Override
public void run() {
synchronized (TimedWaitingState2.class) {
try {
//调用wait方法,让线程等待500秒
TimedWaitingState2.class.wait(500 * 1000);
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
};
thread1.start();
//模拟休眠1秒,让thread1运行到wait方法处
TimeUnit.SECONDS.sleep(1);
System.out.println("thread1.state:" + thread1.getState());
}
}
输出
thread1.state:TIMED_WAITING
线程thread1堆栈信息,堆栈信息中可以看出是线程wait方法导致线程等待的
"thread1" #12 prio=5 os_prio=0 tid=0x0000000028571000 nid=0x4b80 in Object.wait() [0x0000000028f2e000]
java.lang.Thread.State: TIMED_WAITING (on object monitor)
at java.lang.Object.wait(Native Method)
- waiting on <0x00000007176ae0b8> (a java.lang.Class for TimedWaitingState2)
at TimedWaitingState2$1.run(TimedWaitingState2.java:11)
- locked <0x00000007176ae0b8> (a java.lang.Class for TimedWaitingState2)
Locked ownable synchronizers:
- None
方式3:join(等待时间)
public class TimedWaitingState3 {
public static void main(String[] args) throws InterruptedException {
Thread thread1 = new Thread("thread1") {
@Override
public void run() {
while (true) ;
}
};
thread1.start();
//join方法会让当前主线程等待thread1结束,最长等待500s,如果500s
thread1.join(500 * 1000);
}
}
主线程堆栈信息
"main" #1 prio=5 os_prio=0 tid=0x0000000003274000 nid=0x1204 in Object.wait() [0x00000000030ee000]
java.lang.Thread.State: TIMED_WAITING (on object monitor)
at java.lang.Object.wait(Native Method)
- waiting on <0x00000007176b0cf8> (a TimedWaitingState3$1)
at java.lang.Thread.join(Thread.java:1257)
- locked <0x00000007176b0cf8> (a TimedWaitingState3$1)
at TimedWaitingState3.main(TimedWaitingState3.java:11)
Locked ownable synchronizers:
- None
方式4:LockSupport.parkNanos(等待时间)
import java.util.concurrent.TimeUnit;
import java.util.concurrent.locks.LockSupport;
public class TimedWaitingState4 {
public static void main(String[] args) throws InterruptedException {
Thread thread1 = new Thread("thread1") {
@Override
public void run() {
//等待500秒
LockSupport.parkNanos(TimeUnit.SECONDS.toNanos(500));
}
};
thread1.start();
//模拟休眠1秒,让thread1运行到parkNanos方法处
TimeUnit.SECONDS.sleep(1);
System.out.println("thread1.state:" + thread1.getState());
}
}
输出
thread1.state:TIMED_WAITING
线程thread1堆栈信息
"thread1" #12 prio=5 os_prio=0 tid=0x0000000028a1e000 nid=0x455c waiting on condition [0x00000000293ff000]
java.lang.Thread.State: TIMED_WAITING (parking)
at sun.misc.Unsafe.park(Native Method)
at java.util.concurrent.locks.LockSupport.parkNanos(LockSupport.java:338)
at TimedWaitingState4$1.run(TimedWaitingState4.java:10)
Locked ownable synchronizers:
- None
方式5:LockSupport.parkUntil(等待时间)
import java.util.concurrent.TimeUnit;
import java.util.concurrent.locks.LockSupport;
public class TimedWaitingState5 {
public static void main(String[] args) throws InterruptedException {
Thread thread1 = new Thread("thread1") {
@Override
public void run() {
//等待500秒
LockSupport.parkUntil(System.currentTimeMillis() + TimeUnit.SECONDS.toMillis(500));
}
};
thread1.start();
//模拟休眠1秒,让thread1运行到parkNanos方法处
TimeUnit.SECONDS.sleep(1);
System.out.println("thread1.state:" + thread1.getState());
}
}
输出
thread1.state:TIMED_WAITING
线程thread1堆栈信息
"thread1" #12 prio=5 os_prio=0 tid=0x00000000291b2000 nid=0x3cc0 waiting on condition [0x0000000029b8f000]
java.lang.Thread.State: TIMED_WAITING (parking)
at sun.misc.Unsafe.park(Native Method)
at java.util.concurrent.locks.LockSupport.parkUntil(LockSupport.java:372)
at TimedWaitingState5$1.run(TimedWaitingState5.java:10)
Locked ownable synchronizers:
- None
2.6、状态6:TERMINATED
执行完了run()方法。其实这只是Java语言级别的一种状态,在操作系统内部可能已经注销了相应的线程,或者将它复用给其他需要使用线程的请求,而在Java语言级别只是通过Java代码看到的线程状态而已。
import java.util.concurrent.TimeUnit;
public class TerminatedState {
public static void main(String[] args) throws InterruptedException {
Thread thread1 = new Thread("thread1") {
@Override
public void run() {
System.out.println(Thread.currentThread());
}
};
thread1.start();
//休眠1秒,等待thread1执行完毕
TimeUnit.SECONDS.sleep(1);
System.out.println("thread1 state:" + thread1.getState());
}
}
输出
Thread[thread1,5,main]
thread1 state:TERMINATED
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